Let me make sure I understand the relationship between the coulomb and the farad...okay?

So... a coulomb is a quantity of electrons or electron holes, that would be the number of electrons that would course through a wire in one second of one amp of that wire. It's also the number of electrons and their holes that would be on the plates of a one farad capacitor at one volt. Now let me get this... show more So... a coulomb is a quantity of electrons or electron holes, that would be the number of electrons that would course through a wire in one second of one amp of that wire. It's also the number of electrons and their holes that would be on the plates of a one farad capacitor at one volt. Now let me get this straight; if one took an ideal, shorted, one farad capacitor that was truly electrically neutral, and charged it up with a one volt power source, (battery?) it would then have 6.242x10^18 electrons standing up on the surface of the negative plate, and it would ALSO have 6.242x10^18 electron holes wandering around in the matrix of the positive plate right? One coulomb of negative charge on one plate and one coulomb of positive charge on the other-- the holes that were left over when you moved the electrons from one side to the other!
Let me further assume that if you charged that same capacitor to a potential of two (2) volts, that you'd have 1.2484x10^19 electrons (two coulombs) stored on the negative plate etc. Under triple the pressure, you'd hold triple the quantity right?

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You are correct but (unless talking about semiconductors and/or band theory) we don't use the term 'holes' in the way you have done.

For a simple charged capacitor, N electrons have been removed from one plate and N electrons put on the other plate. The positive charge on one plate is simply the result of that plate having more protons (in nuclei) than electrons. No positive charges move during charge/discharge of a capacitor.

But if you are analysing current through a semiconductor, it is more complex. Holes are positively charged ions. If you have a row of holes, then an electron can *jump* from hole to hole. This 'looks like' a positive carge moving in one direction but in fact it is an electron jumping in the opposite direction: for convenience we treat this type of current as movement of positive holes.